Human apolipoprotein C-I expression in mice impairs learning and memory functions

Karlygash Abildayeva; Jimmy F. P. Berbee; Arjan Blokland; Paula J. Jansen; Frans J. Hoek; Onno Meijer; Dieter Luetjohann; Thomas Gautier; Thierry Pillot; Jan De Vente; Louis M. Havekes; Frans C. S. Ramaekers; Folkert Kuipers; Patrick C. N. Rensen; Monique Mulder

doi:10.1194/jlr.M700518-JLR200

Human apolipoprotein C-I expression in mice impairs learning and memory functions

Karlygash Abildayeva, Jimmy F. P. Berbee, Arjan Blokland, Paula J. Jansen, Frans J. Hoek, Onno Meijer, Dieter Luetjohann, Thomas Gautier, Thierry Pillot, Jan De Vente, Louis M. Havekes, Frans C. S. Ramaekers, Folkert Kuipers, Patrick C. N. Rensen, Monique Mulder^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

38 Citations (Scopus)

Abstract

The H2 allele of APOC I, giving rise to increased gene expression of apolipoprotein C-I (apoC-I), is in genetic disequilibrium with the APOE4 allele and may provide a major risk factor for Alzheimer's disease (AD). We found that apoC-I protein is present in astrocytes and endothelial cells within hippocampal regions in both human control and AD brains. Interestingly, apoC-I colocalized with R-amyloid (A beta) in plaques in AD brains, and in vitro experiments revealed that aggregation of A beta was delayed in the presence of apoC-I. Moreover, apoC-I was found to exacerbate the soluble A beta oligomer-induced neuronal death. To establish a potential role for apoC-I in cognitive functions, we used human (h) APOC1(+/0) transgenic mice that express APOC1 mRNA throughout their brains and apoC-I protein in astrocytes and endothelial cells. The hAPOC1(+/0) mice displayed impaired hippocampal-dependent learning and memory functions compared with their wild-type litter-mates, as judged from their performance in the object recognition task (P = 0.012) and in the Morris water maze task (P = 0.010). ApoC-I may affect learning as a result of its inhibitory properties toward apoE-dependent lipid metabolism. However, no differences in brain mRNA or protein levels of endogenous apoE were detected between transgenic and wild-type mice. In conclusion, human apoC-I expression impairs cognitive functions in mice independent of apoE expression, which supports the potential of a modulatory role for apoC-I during the development of AD.

Original language	English
Pages (from-to)	856-869
Number of pages	14
Journal	Journal of Lipid Research
Volume	49
Issue number	4
DOIs	https://doi.org/10.1194/jlr.M700518-JLR200
Publication status	Published - Apr-2008

Keywords

alzheimer's disease
apolipoprotein E
object recognition task
Morris water maze task
beta-amyloid
LOW-DENSITY-LIPOPROTEIN
CENTRAL-NERVOUS-SYSTEM
RECEPTOR-RELATED PROTEIN
LIVER-X-RECEPTOR
SPORADIC ALZHEIMERS-DISEASE
AMYLOID-BETA-PEPTIDE
E KNOCKOUT MICE
GENETIC ASSOCIATION
LIPID-METABOLISM
TRANSGENIC MICE

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Abildayeva, K., Berbee, J. F. P., Blokland, A., Jansen, P. J., Hoek, F. J., Meijer, O., Luetjohann, D., Gautier, T., Pillot, T., De Vente, J., Havekes, L. M., Ramaekers, F. C. S., Kuipers, F., Rensen, P. C. N., & Mulder, M. (2008). Human apolipoprotein C-I expression in mice impairs learning and memory functions. Journal of Lipid Research, 49(4), 856-869. https://doi.org/10.1194/jlr.M700518-JLR200

@article{a8ccae48ee53474684729f6fe5fd618c,

title = "Human apolipoprotein C-I expression in mice impairs learning and memory functions",

abstract = "The H2 allele of APOC I, giving rise to increased gene expression of apolipoprotein C-I (apoC-I), is in genetic disequilibrium with the APOE4 allele and may provide a major risk factor for Alzheimer's disease (AD). We found that apoC-I protein is present in astrocytes and endothelial cells within hippocampal regions in both human control and AD brains. Interestingly, apoC-I colocalized with R-amyloid (A beta) in plaques in AD brains, and in vitro experiments revealed that aggregation of A beta was delayed in the presence of apoC-I. Moreover, apoC-I was found to exacerbate the soluble A beta oligomer-induced neuronal death. To establish a potential role for apoC-I in cognitive functions, we used human (h) APOC1(+/0) transgenic mice that express APOC1 mRNA throughout their brains and apoC-I protein in astrocytes and endothelial cells. The hAPOC1(+/0) mice displayed impaired hippocampal-dependent learning and memory functions compared with their wild-type litter-mates, as judged from their performance in the object recognition task (P = 0.012) and in the Morris water maze task (P = 0.010). ApoC-I may affect learning as a result of its inhibitory properties toward apoE-dependent lipid metabolism. However, no differences in brain mRNA or protein levels of endogenous apoE were detected between transgenic and wild-type mice. In conclusion, human apoC-I expression impairs cognitive functions in mice independent of apoE expression, which supports the potential of a modulatory role for apoC-I during the development of AD.",

keywords = "alzheimer's disease, apolipoprotein E, object recognition task, Morris water maze task, beta-amyloid, LOW-DENSITY-LIPOPROTEIN, CENTRAL-NERVOUS-SYSTEM, RECEPTOR-RELATED PROTEIN, LIVER-X-RECEPTOR, SPORADIC ALZHEIMERS-DISEASE, AMYLOID-BETA-PEPTIDE, E KNOCKOUT MICE, GENETIC ASSOCIATION, LIPID-METABOLISM, TRANSGENIC MICE",

author = "Karlygash Abildayeva and Berbee, {Jimmy F. P.} and Arjan Blokland and Jansen, {Paula J.} and Hoek, {Frans J.} and Onno Meijer and Dieter Luetjohann and Thomas Gautier and Thierry Pillot and {De Vente}, Jan and Havekes, {Louis M.} and Ramaekers, {Frans C. S.} and Folkert Kuipers and Rensen, {Patrick C. N.} and Monique Mulder",

year = "2008",

month = apr,

doi = "10.1194/jlr.M700518-JLR200",

language = "English",

volume = "49",

pages = "856--869",

journal = "Journal of Lipid Research",

issn = "0022-2275",

publisher = "AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC",

number = "4",

}

Abildayeva, K, Berbee, JFP, Blokland, A, Jansen, PJ, Hoek, FJ, Meijer, O, Luetjohann, D, Gautier, T, Pillot, T, De Vente, J, Havekes, LM, Ramaekers, FCS, Kuipers, F, Rensen, PCN & Mulder, M 2008, 'Human apolipoprotein C-I expression in mice impairs learning and memory functions', Journal of Lipid Research, vol. 49, no. 4, pp. 856-869. https://doi.org/10.1194/jlr.M700518-JLR200

TY - JOUR

T1 - Human apolipoprotein C-I expression in mice impairs learning and memory functions

AU - Abildayeva, Karlygash

AU - Berbee, Jimmy F. P.

AU - Blokland, Arjan

AU - Jansen, Paula J.

AU - Hoek, Frans J.

AU - Meijer, Onno

AU - Luetjohann, Dieter

AU - Gautier, Thomas

AU - Pillot, Thierry

AU - De Vente, Jan

AU - Havekes, Louis M.

AU - Ramaekers, Frans C. S.

AU - Kuipers, Folkert

AU - Rensen, Patrick C. N.

AU - Mulder, Monique

PY - 2008/4

Y1 - 2008/4

N2 - The H2 allele of APOC I, giving rise to increased gene expression of apolipoprotein C-I (apoC-I), is in genetic disequilibrium with the APOE4 allele and may provide a major risk factor for Alzheimer's disease (AD). We found that apoC-I protein is present in astrocytes and endothelial cells within hippocampal regions in both human control and AD brains. Interestingly, apoC-I colocalized with R-amyloid (A beta) in plaques in AD brains, and in vitro experiments revealed that aggregation of A beta was delayed in the presence of apoC-I. Moreover, apoC-I was found to exacerbate the soluble A beta oligomer-induced neuronal death. To establish a potential role for apoC-I in cognitive functions, we used human (h) APOC1(+/0) transgenic mice that express APOC1 mRNA throughout their brains and apoC-I protein in astrocytes and endothelial cells. The hAPOC1(+/0) mice displayed impaired hippocampal-dependent learning and memory functions compared with their wild-type litter-mates, as judged from their performance in the object recognition task (P = 0.012) and in the Morris water maze task (P = 0.010). ApoC-I may affect learning as a result of its inhibitory properties toward apoE-dependent lipid metabolism. However, no differences in brain mRNA or protein levels of endogenous apoE were detected between transgenic and wild-type mice. In conclusion, human apoC-I expression impairs cognitive functions in mice independent of apoE expression, which supports the potential of a modulatory role for apoC-I during the development of AD.

AB - The H2 allele of APOC I, giving rise to increased gene expression of apolipoprotein C-I (apoC-I), is in genetic disequilibrium with the APOE4 allele and may provide a major risk factor for Alzheimer's disease (AD). We found that apoC-I protein is present in astrocytes and endothelial cells within hippocampal regions in both human control and AD brains. Interestingly, apoC-I colocalized with R-amyloid (A beta) in plaques in AD brains, and in vitro experiments revealed that aggregation of A beta was delayed in the presence of apoC-I. Moreover, apoC-I was found to exacerbate the soluble A beta oligomer-induced neuronal death. To establish a potential role for apoC-I in cognitive functions, we used human (h) APOC1(+/0) transgenic mice that express APOC1 mRNA throughout their brains and apoC-I protein in astrocytes and endothelial cells. The hAPOC1(+/0) mice displayed impaired hippocampal-dependent learning and memory functions compared with their wild-type litter-mates, as judged from their performance in the object recognition task (P = 0.012) and in the Morris water maze task (P = 0.010). ApoC-I may affect learning as a result of its inhibitory properties toward apoE-dependent lipid metabolism. However, no differences in brain mRNA or protein levels of endogenous apoE were detected between transgenic and wild-type mice. In conclusion, human apoC-I expression impairs cognitive functions in mice independent of apoE expression, which supports the potential of a modulatory role for apoC-I during the development of AD.

KW - alzheimer's disease

KW - apolipoprotein E

KW - object recognition task

KW - Morris water maze task

KW - beta-amyloid

KW - LOW-DENSITY-LIPOPROTEIN

KW - CENTRAL-NERVOUS-SYSTEM

KW - RECEPTOR-RELATED PROTEIN

KW - LIVER-X-RECEPTOR

KW - SPORADIC ALZHEIMERS-DISEASE

KW - AMYLOID-BETA-PEPTIDE

KW - E KNOCKOUT MICE

KW - GENETIC ASSOCIATION

KW - LIPID-METABOLISM

KW - TRANSGENIC MICE

U2 - 10.1194/jlr.M700518-JLR200

DO - 10.1194/jlr.M700518-JLR200

M3 - Article

SN - 0022-2275

VL - 49

SP - 856

EP - 869

JO - Journal of Lipid Research

JF - Journal of Lipid Research

IS - 4

ER -

Human apolipoprotein C-I expression in mice impairs learning and memory functions

Abstract

Keywords

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